usr.sbin/envstat/envstat.c

1.71     ahoka /* $NetBSD: envstat.c,v 1.71 2009/02/14 16:08:22 ahoka Exp $ */
 1.1      groo
 1.1      groo /*-
1.59   xtraeme  * Copyright (c) 2007, 2008 Juan Romero Pardines.
 1.1      groo  * All rights reserved.
 1.1      groo  *
 1.1      groo  * Redistribution and use in source and binary forms, with or without
 1.1      groo  * modification, are permitted provided that the following conditions
 1.1      groo  * are met:
 1.1      groo  * 1. Redistributions of source code must retain the above copyright
 1.1      groo  *    notice, this list of conditions and the following disclaimer.
 1.1      groo  * 2. Redistributions in binary form must reproduce the above copyright
 1.1      groo  *    notice, this list of conditions and the following disclaimer in the
 1.1      groo  *    documentation and/or other materials provided with the distribution.
 1.1      groo  *
1.56   xtraeme  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
1.56   xtraeme  * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
1.56   xtraeme  * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
1.56   xtraeme  * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
1.56   xtraeme  * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
1.56   xtraeme  * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
1.56   xtraeme  * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
1.56   xtraeme  * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
1.56   xtraeme  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
1.56   xtraeme  * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
 1.1      groo  */
 1.1      groo
1.56   xtraeme #include <sys/cdefs.h>
1.56   xtraeme #ifndef lint
1.71     ahoka __RCSID("$NetBSD: envstat.c,v 1.71 2009/02/14 16:08:22 ahoka Exp $");
1.56   xtraeme #endif /* not lint */
1.56   xtraeme
 1.1      groo #include <stdio.h>
 1.1      groo #include <stdlib.h>
1.25   xtraeme #include <stdbool.h>
 1.1      groo #include <string.h>
 1.1      groo #include <unistd.h>
1.25   xtraeme #include <fcntl.h>
 1.3   thorpej #include <err.h>
1.25   xtraeme #include <errno.h>
1.56   xtraeme #include <syslog.h>
 1.1      groo #include <sys/envsys.h>
1.58   xtraeme #include <sys/types.h>
1.59   xtraeme #include <sys/queue.h>
1.59   xtraeme #include <prop/proplib.h>
 1.1      groo
1.56   xtraeme #include "envstat.h"
1.56   xtraeme
1.25   xtraeme #define _PATH_DEV_SYSMON	"/dev/sysmon"
 1.1      groo
1.25   xtraeme #define ENVSYS_DFLAG	0x00000001	/* list registered devices */
1.25   xtraeme #define ENVSYS_FFLAG	0x00000002	/* show temp in farenheit */
1.25   xtraeme #define ENVSYS_LFLAG	0x00000004	/* list sensors */
1.25   xtraeme #define ENVSYS_XFLAG	0x00000008	/* externalize dictionary */
1.61   xtraeme #define ENVSYS_IFLAG 	0x00000010	/* skip invalid sensors */
1.61   xtraeme #define ENVSYS_SFLAG	0x00000020	/* remove all properties set */
1.61   xtraeme #define ENVSYS_TFLAG	0x00000040	/* make statistics */
1.70  pgoyette #define ENVSYS_WFLAG	0x00000080	/* print warn{min,max} values */
1.71     ahoka #define ENVSYS_KFLAG	0x00000100	/* show temp in kelvin */
1.25   xtraeme
1.61   xtraeme /* Sensors */
1.59   xtraeme typedef struct envsys_sensor {
1.59   xtraeme 	SIMPLEQ_ENTRY(envsys_sensor) entries;
1.25   xtraeme 	int32_t	cur_value;
1.25   xtraeme 	int32_t	max_value;
1.25   xtraeme 	int32_t	min_value;
1.25   xtraeme 	int32_t	avg_value;
1.25   xtraeme 	int32_t critcap_value;
1.25   xtraeme 	int32_t	critmin_value;
1.25   xtraeme 	int32_t	critmax_value;
1.70  pgoyette 	int32_t warncap_value;
1.70  pgoyette 	int32_t	warnmin_value;
1.70  pgoyette 	int32_t	warnmax_value;
1.25   xtraeme 	char	desc[ENVSYS_DESCLEN];
1.25   xtraeme 	char	type[ENVSYS_DESCLEN];
1.25   xtraeme 	char	drvstate[ENVSYS_DESCLEN];
1.57   xtraeme 	char	battcap[ENVSYS_DESCLEN];
1.54   xtraeme 	char 	dvname[ENVSYS_DESCLEN];
1.59   xtraeme 	bool	invalid;
1.59   xtraeme 	bool	visible;
1.59   xtraeme 	bool	percentage;
1.59   xtraeme } *sensor_t;
1.25   xtraeme
1.61   xtraeme /* Sensor statistics */
1.61   xtraeme typedef struct envsys_sensor_stats {
1.61   xtraeme 	SIMPLEQ_ENTRY(envsys_sensor_stats) entries;
1.61   xtraeme 	int32_t	max;
1.61   xtraeme 	int32_t	min;
1.61   xtraeme 	int32_t avg;
1.61   xtraeme 	char	desc[ENVSYS_DESCLEN];
1.61   xtraeme } *sensor_stats_t;
1.61   xtraeme
1.61   xtraeme /* Device properties */
1.59   xtraeme typedef struct envsys_dvprops {
1.58   xtraeme 	uint64_t	refresh_timo;
1.61   xtraeme 	/* more members could be added in the future */
1.59   xtraeme } *dvprops_t;
1.58   xtraeme
1.59   xtraeme /* A simple queue to manage all sensors */
1.59   xtraeme static SIMPLEQ_HEAD(, envsys_sensor) sensors_list =
1.59   xtraeme     SIMPLEQ_HEAD_INITIALIZER(sensors_list);
1.59   xtraeme
1.61   xtraeme /* A simple queue to manage statistics for all sensors */
1.61   xtraeme static SIMPLEQ_HEAD(, envsys_sensor_stats) sensor_stats_list =
1.61   xtraeme     SIMPLEQ_HEAD_INITIALIZER(sensor_stats_list);
1.61   xtraeme
1.59   xtraeme static unsigned int 	interval, flags, width;
1.59   xtraeme static char 		*mydevname, *sensors;
1.61   xtraeme static bool 		statistics;
1.61   xtraeme static u_int		header_passes;
1.59   xtraeme
1.59   xtraeme static int 		parse_dictionary(int);
1.59   xtraeme static int 		send_dictionary(FILE *, int);
1.59   xtraeme static int 		find_sensors(prop_array_t, const char *, dvprops_t);
1.59   xtraeme static void 		print_sensors(void);
1.59   xtraeme static int 		check_sensors(char *);
1.59   xtraeme static int 		usage(void);
1.25   xtraeme
1.25   xtraeme
1.25   xtraeme int main(int argc, char **argv)
1.25   xtraeme {
1.25   xtraeme 	prop_dictionary_t dict;
1.59   xtraeme 	int c, fd, rval = 0;
1.56   xtraeme 	char *endptr, *configfile = NULL;
1.56   xtraeme 	FILE *cf;
1.25   xtraeme
1.25   xtraeme 	setprogname(argv[0]);
1.25   xtraeme
1.71     ahoka 	while ((c = getopt(argc, argv, "c:Dd:fIi:klrSs:Tw:Wx")) != -1) {
1.25   xtraeme 		switch (c) {
1.56   xtraeme 		case 'c':	/* configuration file */
1.56   xtraeme 			configfile = strdup(optarg);
1.56   xtraeme 			if (configfile == NULL)
1.56   xtraeme 				err(EXIT_FAILURE, "strdup");
1.56   xtraeme 			break;
1.45   xtraeme 		case 'D':	/* list registered devices */
1.45   xtraeme 			flags |= ENVSYS_DFLAG;
1.45   xtraeme 			break;
1.25   xtraeme 		case 'd':	/* show sensors of a specific device */
1.25   xtraeme 			mydevname = strdup(optarg);
1.25   xtraeme 			if (mydevname == NULL)
1.54   xtraeme 				err(EXIT_FAILURE, "strdup");
1.25   xtraeme 			break;
1.45   xtraeme 		case 'f':	/* display temperature in Farenheit */
1.45   xtraeme 			flags |= ENVSYS_FFLAG;
1.45   xtraeme 			break;
1.53    plunky 		case 'I':	/* Skips invalid sensors */
1.53    plunky 			flags |= ENVSYS_IFLAG;
1.53    plunky 			break;
1.25   xtraeme 		case 'i':	/* wait time between intervals */
1.56   xtraeme 			interval = (unsigned int)strtoul(optarg, &endptr, 10);
1.25   xtraeme 			if (*endptr != '\0')
1.54   xtraeme 				errx(EXIT_FAILURE, "bad interval '%s'", optarg);
1.25   xtraeme 			break;
1.71     ahoka 		case 'k':	/* display temperature in Kelvin */
1.71     ahoka 			flags |= ENVSYS_KFLAG;
1.71     ahoka 			break;
1.25   xtraeme 		case 'l':	/* list sensors */
1.25   xtraeme 			flags |= ENVSYS_LFLAG;
1.25   xtraeme 			break;
1.35   xtraeme 		case 'r':
1.35   xtraeme 			/*
1.59   xtraeme 			 * This flag is noop.. it's only here for
1.35   xtraeme 			 * compatibility with the old implementation.
1.35   xtraeme 			 */
1.35   xtraeme 			break;
1.56   xtraeme 		case 'S':
1.56   xtraeme 			flags |= ENVSYS_SFLAG;
1.56   xtraeme 			break;
1.25   xtraeme 		case 's':	/* only show specified sensors */
1.25   xtraeme 			sensors = strdup(optarg);
 1.1      groo 			if (sensors == NULL)
1.54   xtraeme 				err(EXIT_FAILURE, "strdup");
 1.1      groo 			break;
1.61   xtraeme 		case 'T':	/* make statistics */
1.61   xtraeme 			flags |= ENVSYS_TFLAG;
1.61   xtraeme 			break;
1.70  pgoyette 		case 'W':	/* print warn{max,min} vs crit{max,min} */
1.70  pgoyette 			flags |= ENVSYS_WFLAG;
1.70  pgoyette 			break;
1.45   xtraeme 		case 'w':	/* width value for the lines */
1.61   xtraeme 			width = (unsigned int)strtoul(optarg, &endptr, 10);
1.45   xtraeme 			if (*endptr != '\0')
1.54   xtraeme 				errx(EXIT_FAILURE, "bad width '%s'", optarg);
1.45   xtraeme 			break;
1.45   xtraeme 		case 'x':	/* print the dictionary in raw format */
1.45   xtraeme 			flags |= ENVSYS_XFLAG;
 1.1      groo 			break;
 1.1      groo 		case '?':
 1.1      groo 		default:
 1.1      groo 			usage();
 1.1      groo 			/* NOTREACHED */
 1.1      groo 		}
 1.1      groo 	}
 1.1      groo
1.45   xtraeme 	argc -= optind;
1.45   xtraeme 	argv += optind;
1.45   xtraeme
1.50   xtraeme 	if (argc > 0)
1.50   xtraeme 		usage();
1.50   xtraeme
1.61   xtraeme 	/* Check if we want to make statistics */
1.61   xtraeme 	if (flags & ENVSYS_TFLAG) {
1.61   xtraeme 		if (!interval)
1.61   xtraeme 			errx(EXIT_FAILURE,
1.61   xtraeme 		    	    "-T cannot be used without an interval (-i)");
1.70  pgoyette 		if (flags & ENVSYS_WFLAG)
1.70  pgoyette 			errx(EXIT_FAILURE,
1.70  pgoyette 			    "-T cannot be used with -W");
1.61   xtraeme 		else
1.61   xtraeme 			statistics = true;
1.61   xtraeme 	}
1.61   xtraeme
1.59   xtraeme 	if (mydevname && sensors)
1.59   xtraeme 		errx(EXIT_FAILURE, "-d flag cannot be used with -s");
1.59   xtraeme
1.59   xtraeme 	/* Open the device in ro mode */
1.25   xtraeme 	if ((fd = open(_PATH_DEV_SYSMON, O_RDONLY)) == -1)
1.54   xtraeme 		err(EXIT_FAILURE, "%s", _PATH_DEV_SYSMON);
 1.1      groo
1.59   xtraeme 	/* Print dictionary in raw mode */
1.47   xtraeme 	if (flags & ENVSYS_XFLAG) {
1.38   xtraeme 		rval = prop_dictionary_recv_ioctl(fd,
1.47   xtraeme 						  ENVSYS_GETDICTIONARY,
1.47   xtraeme 						  &dict);
1.54   xtraeme 		if (rval)
1.54   xtraeme 			errx(EXIT_FAILURE, "%s", strerror(rval));
1.54   xtraeme
1.56   xtraeme 		config_dict_dump(dict);
1.56   xtraeme
1.59   xtraeme 	/* Remove all properties set in dictionary */
1.56   xtraeme 	} else if (flags & ENVSYS_SFLAG) {
1.59   xtraeme 		/* Close the ro descriptor */
1.56   xtraeme 		(void)close(fd);
1.56   xtraeme
1.59   xtraeme 		/* open the fd in rw mode */
1.56   xtraeme 		if ((fd = open(_PATH_DEV_SYSMON, O_RDWR)) == -1)
1.56   xtraeme 			err(EXIT_FAILURE, "%s", _PATH_DEV_SYSMON);
1.56   xtraeme
1.56   xtraeme 		dict = prop_dictionary_create();
1.56   xtraeme 		if (!dict)
1.56   xtraeme 			err(EXIT_FAILURE, "prop_dictionary_create");
1.56   xtraeme
1.56   xtraeme 		rval = prop_dictionary_set_bool(dict,
1.56   xtraeme 						"envsys-remove-props",
1.56   xtraeme 					        true);
1.56   xtraeme 		if (!rval)
1.56   xtraeme 			err(EXIT_FAILURE, "prop_dict_set_bool");
1.56   xtraeme
1.59   xtraeme 		/* send the dictionary to the kernel now */
1.56   xtraeme 		rval = prop_dictionary_send_ioctl(dict, fd, ENVSYS_REMOVEPROPS);
1.56   xtraeme 		if (rval)
1.56   xtraeme 			warnx("%s", strerror(rval));
1.56   xtraeme
1.59   xtraeme 	/* Set properties in dictionary */
1.56   xtraeme 	} else if (configfile) {
1.56   xtraeme 		/*
1.56   xtraeme 		 * Parse the configuration file.
1.56   xtraeme 		 */
1.56   xtraeme 		if ((cf = fopen(configfile, "r")) == NULL) {
1.56   xtraeme 			syslog(LOG_ERR, "fopen failed: %s", strerror(errno));
1.56   xtraeme 			errx(EXIT_FAILURE, "%s", strerror(errno));
1.56   xtraeme 		}
1.56   xtraeme
1.56   xtraeme 		rval = send_dictionary(cf, fd);
1.56   xtraeme 		(void)fclose(cf);
1.56   xtraeme
1.59   xtraeme 	/* Show sensors with interval */
1.25   xtraeme 	} else if (interval) {
1.25   xtraeme 		for (;;) {
1.25   xtraeme 			rval = parse_dictionary(fd);
1.25   xtraeme 			if (rval)
1.54   xtraeme 				break;
1.54   xtraeme
1.25   xtraeme 			(void)fflush(stdout);
1.25   xtraeme 			(void)sleep(interval);
1.25   xtraeme 		}
1.59   xtraeme 	/* Show sensors without interval */
1.48   xtraeme 	} else {
1.47   xtraeme 		rval = parse_dictionary(fd);
1.48   xtraeme 	}
1.25   xtraeme
1.25   xtraeme 	if (sensors)
1.25   xtraeme 		free(sensors);
1.25   xtraeme 	if (mydevname)
1.25   xtraeme 		free(mydevname);
1.25   xtraeme 	(void)close(fd);
1.54   xtraeme
1.56   xtraeme 	return rval ? EXIT_FAILURE : EXIT_SUCCESS;
1.25   xtraeme }
1.25   xtraeme
1.25   xtraeme static int
1.56   xtraeme send_dictionary(FILE *cf, int fd)
1.25   xtraeme {
1.56   xtraeme 	prop_dictionary_t kdict, udict;
1.56   xtraeme 	int error = 0;
1.25   xtraeme
1.59   xtraeme 	/* Retrieve dictionary from kernel */
1.56   xtraeme 	error = prop_dictionary_recv_ioctl(fd, ENVSYS_GETDICTIONARY, &kdict);
1.56   xtraeme       	if (error)
1.37   xtraeme 		return error;
 1.1      groo
1.56   xtraeme 	config_parse(cf, kdict);
 1.1      groo
1.56   xtraeme 	/*
1.56   xtraeme 	 * Dictionary built by the parser from the configuration file.
1.25   xtraeme 	 */
1.56   xtraeme 	udict = config_dict_parsed();
 1.1      groo
1.25   xtraeme 	/*
1.56   xtraeme 	 * Close the read only descriptor and open a new one read write.
1.25   xtraeme 	 */
1.56   xtraeme 	(void)close(fd);
1.36   xtraeme 	if ((fd = open(_PATH_DEV_SYSMON, O_RDWR)) == -1) {
1.36   xtraeme 		error = errno;
1.54   xtraeme 		warn("%s", _PATH_DEV_SYSMON);
1.56   xtraeme 		return error;
1.36   xtraeme 	}
1.36   xtraeme
1.56   xtraeme 	/*
1.58   xtraeme 	 * Send our sensor properties dictionary to the kernel then.
1.56   xtraeme 	 */
1.25   xtraeme 	error = prop_dictionary_send_ioctl(udict, fd, ENVSYS_SETDICTIONARY);
1.25   xtraeme 	if (error)
1.54   xtraeme 		warnx("%s", strerror(error));
1.56   xtraeme
1.25   xtraeme 	prop_object_release(udict);
1.25   xtraeme 	return error;
1.25   xtraeme }
1.25   xtraeme
1.61   xtraeme static sensor_stats_t
1.69  christos find_stats_sensor(const char *desc)
1.61   xtraeme {
1.66  christos 	sensor_stats_t stats;
1.61   xtraeme
1.61   xtraeme 	/*
1.61   xtraeme 	 * If we matched a sensor by its description return it, otherwise
1.61   xtraeme 	 * allocate a new one.
1.61   xtraeme 	 */
1.66  christos 	SIMPLEQ_FOREACH(stats, &sensor_stats_list, entries)
1.66  christos 		if (strcmp(stats->desc, desc) == 0)
1.66  christos 			return stats;
1.61   xtraeme
1.69  christos 	stats = calloc(1, sizeof(*stats));
1.69  christos 	if (stats == NULL)
1.66  christos 		return NULL;
1.61   xtraeme
1.69  christos 	(void)strlcpy(stats->desc, desc, sizeof(stats->desc));
1.69  christos 	SIMPLEQ_INSERT_TAIL(&sensor_stats_list, stats, entries);
1.69  christos
1.69  christos 	return stats;
1.61   xtraeme }
1.61   xtraeme
1.25   xtraeme static int
1.25   xtraeme parse_dictionary(int fd)
1.25   xtraeme {
1.59   xtraeme 	sensor_t sensor = NULL;
1.59   xtraeme 	dvprops_t edp = NULL;
1.25   xtraeme 	prop_array_t array;
1.25   xtraeme 	prop_dictionary_t dict;
1.25   xtraeme 	prop_object_iterator_t iter;
1.25   xtraeme 	prop_object_t obj;
1.25   xtraeme 	const char *dnp = NULL;
1.25   xtraeme 	int rval = 0;
1.25   xtraeme
1.25   xtraeme 	/* receive dictionary from kernel */
1.37   xtraeme 	rval = prop_dictionary_recv_ioctl(fd, ENVSYS_GETDICTIONARY, &dict);
1.37   xtraeme 	if (rval)
1.37   xtraeme 		return rval;
1.25   xtraeme
1.59   xtraeme 	/* No drivers registered? */
1.42   xtraeme 	if (prop_dictionary_count(dict) == 0) {
1.42   xtraeme 		warnx("no drivers registered");
1.42   xtraeme 		goto out;
1.42   xtraeme 	}
1.42   xtraeme
1.25   xtraeme 	if (mydevname) {
1.59   xtraeme 		/* -d flag specified, print sensors only for this device */
1.25   xtraeme 		obj = prop_dictionary_get(dict, mydevname);
1.25   xtraeme 		if (prop_object_type(obj) != PROP_TYPE_ARRAY) {
1.25   xtraeme 			warnx("unknown device `%s'", mydevname);
1.25   xtraeme 			rval = EINVAL;
1.25   xtraeme 			goto out;
 1.1      groo 		}
 1.1      groo
1.58   xtraeme 		rval = find_sensors(obj, mydevname, NULL);
1.25   xtraeme 		if (rval)
1.25   xtraeme 			goto out;
1.54   xtraeme
1.25   xtraeme 	} else {
1.59   xtraeme 		/* print sensors for all devices registered */
1.25   xtraeme 		iter = prop_dictionary_iterator(dict);
1.25   xtraeme 		if (iter == NULL) {
1.25   xtraeme 			rval = EINVAL;
1.25   xtraeme 			goto out;
1.25   xtraeme 		}
 1.6  explorer
1.25   xtraeme 		/* iterate over the dictionary returned by the kernel */
1.25   xtraeme 		while ((obj = prop_object_iterator_next(iter)) != NULL) {
1.25   xtraeme 			array = prop_dictionary_get_keysym(dict, obj);
1.25   xtraeme 			if (prop_object_type(array) != PROP_TYPE_ARRAY) {
1.25   xtraeme 				warnx("no sensors found");
1.25   xtraeme 				rval = EINVAL;
1.25   xtraeme 				goto out;
 1.1      groo 			}
 1.1      groo
1.59   xtraeme 			edp = calloc(1, sizeof(*edp));
1.58   xtraeme 			if (!edp) {
1.58   xtraeme 				rval = ENOMEM;
1.58   xtraeme 				goto out;
1.58   xtraeme 			}
1.58   xtraeme
1.25   xtraeme 			dnp = prop_dictionary_keysym_cstring_nocopy(obj);
1.58   xtraeme 			rval = find_sensors(array, dnp, edp);
1.58   xtraeme 			if (rval)
1.58   xtraeme 				goto out;
1.25   xtraeme
1.58   xtraeme 			if (((flags & ENVSYS_LFLAG) == 0) &&
1.58   xtraeme 			    (flags & ENVSYS_DFLAG)) {
1.58   xtraeme 				(void)printf("%s (checking events every ",
1.58   xtraeme 				    dnp);
1.58   xtraeme 				if (edp->refresh_timo == 1)
1.58   xtraeme 					(void)printf("second)\n");
1.58   xtraeme 				else
1.58   xtraeme 					(void)printf("%d seconds)\n",
1.58   xtraeme 					    (int)edp->refresh_timo);
1.58   xtraeme 			}
1.58   xtraeme
1.58   xtraeme 			free(edp);
1.58   xtraeme 			edp = NULL;
 1.1      groo 		}
1.59   xtraeme 		prop_object_iterator_release(iter);
1.59   xtraeme 	}
1.31   xtraeme
1.59   xtraeme 	/* print sensors now */
1.59   xtraeme 	if (sensors) {
1.59   xtraeme 		char *str = strdup(sensors);
1.59   xtraeme 		if (!str) {
1.59   xtraeme 			rval = ENOMEM;
1.59   xtraeme 			goto out;
1.59   xtraeme 		}
1.59   xtraeme 		rval = check_sensors(str);
1.59   xtraeme 		if (rval) {
1.59   xtraeme 			free(str);
1.59   xtraeme 			goto out;
1.59   xtraeme 		}
1.59   xtraeme 		free(str);
1.33   xtraeme 	}
1.59   xtraeme 	if ((flags & ENVSYS_LFLAG) == 0 && (flags & ENVSYS_DFLAG) == 0)
1.59   xtraeme 		print_sensors();
1.59   xtraeme 	if (interval)
1.59   xtraeme 		(void)printf("\n");
1.31   xtraeme
1.25   xtraeme out:
1.59   xtraeme 	while ((sensor = SIMPLEQ_FIRST(&sensors_list))) {
1.59   xtraeme 		SIMPLEQ_REMOVE_HEAD(&sensors_list, entries);
1.59   xtraeme 		free(sensor);
1.31   xtraeme 	}
1.58   xtraeme 	if (edp)
1.58   xtraeme 		free(edp);
1.25   xtraeme 	prop_object_release(dict);
1.25   xtraeme 	return rval;
 1.1      groo }
 1.1      groo
1.25   xtraeme static int
1.59   xtraeme find_sensors(prop_array_t array, const char *dvname, dvprops_t edp)
1.25   xtraeme {
1.25   xtraeme 	prop_object_iterator_t iter;
1.58   xtraeme 	prop_object_t obj, obj1, obj2;
1.25   xtraeme 	prop_string_t state, desc = NULL;
1.59   xtraeme 	sensor_t sensor = NULL;
1.61   xtraeme 	sensor_stats_t stats = NULL;
1.25   xtraeme
1.25   xtraeme 	iter = prop_array_iterator(array);
1.56   xtraeme 	if (!iter)
1.59   xtraeme 		return ENOMEM;
1.25   xtraeme
1.25   xtraeme 	/* iterate over the array of dictionaries */
1.25   xtraeme 	while ((obj = prop_object_iterator_next(iter)) != NULL) {
1.58   xtraeme 		/* get the refresh-timeout property */
1.58   xtraeme 		obj2 = prop_dictionary_get(obj, "device-properties");
1.58   xtraeme 		if (obj2) {
1.58   xtraeme 			if (!edp)
1.58   xtraeme 				continue;
1.58   xtraeme 			if (!prop_dictionary_get_uint64(obj2,
1.58   xtraeme 							"refresh-timeout",
1.58   xtraeme 							&edp->refresh_timo))
1.58   xtraeme 				continue;
1.58   xtraeme 		}
1.58   xtraeme
1.59   xtraeme 		/* new sensor coming */
1.59   xtraeme 		sensor = calloc(1, sizeof(*sensor));
1.61   xtraeme 		if (sensor == NULL) {
1.61   xtraeme 			prop_object_iterator_release(iter);
1.59   xtraeme 			return ENOMEM;
1.61   xtraeme 		}
1.59   xtraeme
1.54   xtraeme 		/* copy device name */
1.59   xtraeme 		(void)strlcpy(sensor->dvname, dvname, sizeof(sensor->dvname));
1.25   xtraeme
1.25   xtraeme 		/* description string */
1.25   xtraeme 		desc = prop_dictionary_get(obj, "description");
1.56   xtraeme 		if (desc) {
1.37   xtraeme 			/* copy description */
1.59   xtraeme 			(void)strlcpy(sensor->desc,
1.37   xtraeme 			    prop_string_cstring_nocopy(desc),
1.59   xtraeme 		    	    sizeof(sensor->desc));
1.59   xtraeme 		} else {
1.59   xtraeme 			free(sensor);
1.37   xtraeme 			continue;
1.59   xtraeme 		}
1.25   xtraeme
1.25   xtraeme 		/* type string */
1.25   xtraeme 		obj1  = prop_dictionary_get(obj, "type");
1.59   xtraeme 		if (obj1) {
1.59   xtraeme 			/* copy type */
1.59   xtraeme 			(void)strlcpy(sensor->type,
1.59   xtraeme 		    	    prop_string_cstring_nocopy(obj1),
1.59   xtraeme 		    	    sizeof(sensor->type));
1.59   xtraeme 		} else {
1.59   xtraeme 			free(sensor);
1.59   xtraeme 			continue;
1.59   xtraeme 		}
1.59   xtraeme
1.59   xtraeme 		/* check sensor's state */
1.59   xtraeme 		state = prop_dictionary_get(obj, "state");
1.59   xtraeme
1.59   xtraeme 		/* mark sensors with invalid/unknown state */
1.59   xtraeme 		if ((prop_string_equals_cstring(state, "invalid") ||
1.59   xtraeme 		     prop_string_equals_cstring(state, "unknown")))
1.59   xtraeme 			sensor->invalid = true;
1.25   xtraeme
1.25   xtraeme 		/* get current drive state string */
1.25   xtraeme 		obj1 = prop_dictionary_get(obj, "drive-state");
1.59   xtraeme 		if (obj1) {
1.59   xtraeme 			(void)strlcpy(sensor->drvstate,
1.25   xtraeme 			    prop_string_cstring_nocopy(obj1),
1.59   xtraeme 			    sizeof(sensor->drvstate));
1.59   xtraeme 		}
1.25   xtraeme
1.57   xtraeme 		/* get current battery capacity string */
1.57   xtraeme 		obj1 = prop_dictionary_get(obj, "battery-capacity");
1.59   xtraeme 		if (obj1) {
1.59   xtraeme 			(void)strlcpy(sensor->battcap,
1.44   xtraeme 			    prop_string_cstring_nocopy(obj1),
1.59   xtraeme 			    sizeof(sensor->battcap));
1.59   xtraeme 		}
1.44   xtraeme
1.25   xtraeme 		/* get current value */
1.25   xtraeme 		obj1 = prop_dictionary_get(obj, "cur-value");
1.59   xtraeme 		if (obj1)
1.59   xtraeme 			sensor->cur_value = prop_number_integer_value(obj1);
1.25   xtraeme
1.25   xtraeme 		/* get max value */
1.25   xtraeme 		obj1 = prop_dictionary_get(obj, "max-value");
1.56   xtraeme 		if (obj1)
1.59   xtraeme 			sensor->max_value = prop_number_integer_value(obj1);
1.25   xtraeme
1.25   xtraeme 		/* get min value */
1.25   xtraeme 		obj1 = prop_dictionary_get(obj, "min-value");
1.56   xtraeme 		if (obj1)
1.59   xtraeme 			sensor->min_value = prop_number_integer_value(obj1);
1.25   xtraeme
1.25   xtraeme 		/* get avg value */
1.25   xtraeme 		obj1 = prop_dictionary_get(obj, "avg-value");
1.56   xtraeme 		if (obj1)
1.59   xtraeme 			sensor->avg_value = prop_number_integer_value(obj1);
1.25   xtraeme
1.25   xtraeme 		/* get percentage flag */
1.25   xtraeme 		obj1 = prop_dictionary_get(obj, "want-percentage");
1.56   xtraeme 		if (obj1)
1.59   xtraeme 			sensor->percentage = prop_bool_true(obj1);
1.25   xtraeme
1.25   xtraeme 		/* get critical max value if available */
1.56   xtraeme 		obj1 = prop_dictionary_get(obj, "critical-max");
1.59   xtraeme 		if (obj1)
1.59   xtraeme 			sensor->critmax_value = prop_number_integer_value(obj1);
 1.5       cgd
1.25   xtraeme 		/* get critical min value if available */
1.56   xtraeme 		obj1 = prop_dictionary_get(obj, "critical-min");
1.59   xtraeme 		if (obj1)
1.59   xtraeme 			sensor->critmin_value = prop_number_integer_value(obj1);
 1.1      groo
1.25   xtraeme 		/* get critical capacity value if available */
1.25   xtraeme 		obj1 = prop_dictionary_get(obj, "critical-capacity");
1.59   xtraeme 		if (obj1)
1.59   xtraeme 			sensor->critcap_value = prop_number_integer_value(obj1);
1.25   xtraeme
1.70  pgoyette 		/* get warning max value if available */
1.70  pgoyette 		obj1 = prop_dictionary_get(obj, "warning-max");
1.70  pgoyette 		if (obj1)
1.70  pgoyette 			sensor->warnmax_value = prop_number_integer_value(obj1);
1.70  pgoyette
1.70  pgoyette 		/* get warning min value if available */
1.70  pgoyette 		obj1 = prop_dictionary_get(obj, "warning-min");
1.70  pgoyette 		if (obj1)
1.70  pgoyette 			sensor->warnmin_value = prop_number_integer_value(obj1);
1.70  pgoyette
1.70  pgoyette 		/* get warning capacity value if available */
1.70  pgoyette 		obj1 = prop_dictionary_get(obj, "warning-capacity");
1.70  pgoyette 		if (obj1)
1.70  pgoyette 			sensor->warncap_value = prop_number_integer_value(obj1);
1.70  pgoyette
1.25   xtraeme 		/* print sensor names if -l was given */
1.25   xtraeme 		if (flags & ENVSYS_LFLAG) {
1.25   xtraeme 			if (width)
1.25   xtraeme 				(void)printf("%*s\n", width,
1.25   xtraeme 				    prop_string_cstring_nocopy(desc));
1.25   xtraeme 			else
1.25   xtraeme 				(void)printf("%s\n",
1.25   xtraeme 				    prop_string_cstring_nocopy(desc));
1.25   xtraeme 		}
1.59   xtraeme
1.59   xtraeme 		/* Add the sensor into the list */
1.59   xtraeme 		SIMPLEQ_INSERT_TAIL(&sensors_list, sensor, entries);
1.61   xtraeme
1.61   xtraeme 		/* Collect statistics if flag enabled */
1.61   xtraeme 		if (statistics) {
1.69  christos 			/* ignore sensors not relevant for statistics */
1.69  christos 			if ((strcmp(sensor->type, "Indicator") == 0) ||
1.69  christos 			    (strcmp(sensor->type, "Battery charge") == 0) ||
1.69  christos 			    (strcmp(sensor->type, "Drive") == 0))
1.69  christos 				continue;
1.69  christos
1.61   xtraeme 			/* ignore invalid data */
1.69  christos 			if (sensor->invalid || !sensor->cur_value)
1.61   xtraeme 				continue;
1.61   xtraeme
1.61   xtraeme 			/* find or allocate a new statistics sensor */
1.69  christos 			stats = find_stats_sensor(sensor->desc);
1.61   xtraeme 			if (stats == NULL) {
1.61   xtraeme 				free(sensor);
1.61   xtraeme 				prop_object_iterator_release(iter);
1.61   xtraeme 				return ENOMEM;
1.61   xtraeme 			}
1.61   xtraeme
1.61   xtraeme 			/* collect data */
1.61   xtraeme 			if (!stats->max)
1.61   xtraeme 				stats->max = sensor->cur_value;
1.61   xtraeme 			if (!stats->min)
1.61   xtraeme 				stats->min = sensor->cur_value;
1.61   xtraeme
1.61   xtraeme 			if (sensor->cur_value > stats->max)
1.61   xtraeme 				stats->max = sensor->cur_value;
1.61   xtraeme
1.61   xtraeme 			if (sensor->cur_value < stats->min)
1.61   xtraeme 				stats->min = sensor->cur_value;
1.61   xtraeme
1.61   xtraeme 			/* compute avg value */
1.61   xtraeme 			if (stats->max && stats->min)
1.61   xtraeme 				stats->avg =
1.61   xtraeme 				    (sensor->cur_value + stats->max +
1.61   xtraeme 				    stats->min) / 3;
1.61   xtraeme 		}
1.25   xtraeme 	}
 1.1      groo
1.25   xtraeme 	/* free memory */
1.25   xtraeme 	prop_object_iterator_release(iter);
1.59   xtraeme 	return 0;
 1.1      groo }
 1.1      groo
1.25   xtraeme static int
1.59   xtraeme check_sensors(char *str)
 1.1      groo {
1.59   xtraeme 	sensor_t sensor = NULL;
1.59   xtraeme 	char *dvstring, *sstring, *p, *last;
1.59   xtraeme 	bool sensor_found = false;
1.25   xtraeme
1.59   xtraeme 	/*
1.59   xtraeme 	 * Parse device name and sensor description and find out
1.59   xtraeme 	 * if the sensor is valid.
1.59   xtraeme 	 */
1.59   xtraeme 	for ((p = strtok_r(str, ",", &last)); p;
1.59   xtraeme 	     (p = strtok_r(NULL, ",", &last))) {
1.59   xtraeme 		/* get device name */
1.59   xtraeme 		dvstring = strtok(p, ":");
1.59   xtraeme 		if (dvstring == NULL) {
1.59   xtraeme 			warnx("missing device name");
1.59   xtraeme 			return EINVAL;
1.59   xtraeme 		}
1.59   xtraeme
1.59   xtraeme 		/* get sensor description */
1.59   xtraeme 		sstring = strtok(NULL, ":");
1.59   xtraeme 		if (sstring == NULL) {
1.59   xtraeme 			warnx("missing sensor description");
1.59   xtraeme 			return EINVAL;
1.59   xtraeme 		}
1.59   xtraeme
1.59   xtraeme 		SIMPLEQ_FOREACH(sensor, &sensors_list, entries) {
1.59   xtraeme 			/* skip until we match device */
1.59   xtraeme 			if (strcmp(dvstring, sensor->dvname))
1.59   xtraeme 				continue;
1.59   xtraeme 			if (strcmp(sstring, sensor->desc) == 0) {
1.59   xtraeme 				sensor->visible = true;
1.59   xtraeme 				sensor_found = true;
1.25   xtraeme 				break;
1.25   xtraeme 			}
1.25   xtraeme 		}
1.59   xtraeme 		if (sensor_found == false) {
1.59   xtraeme 			warnx("unknown sensor `%s' for device `%s'",
1.59   xtraeme 		       	    sstring, dvstring);
1.59   xtraeme 			return EINVAL;
1.25   xtraeme 		}
1.59   xtraeme 		sensor_found = false;
1.25   xtraeme 	}
 1.1      groo
1.25   xtraeme 	/* check if all sensors were ok, and error out if not */
1.59   xtraeme 	SIMPLEQ_FOREACH(sensor, &sensors_list, entries)
1.59   xtraeme 		if (sensor->visible)
1.25   xtraeme 			return 0;
1.25   xtraeme
1.25   xtraeme 	warnx("no sensors selected to display");
1.25   xtraeme 	return EINVAL;
 1.1      groo }
 1.1      groo
1.25   xtraeme static void
1.59   xtraeme print_sensors(void)
 1.1      groo {
1.59   xtraeme 	sensor_t sensor;
1.61   xtraeme 	sensor_stats_t stats = NULL;
1.61   xtraeme 	size_t maxlen = 0, ilen = 32 + 3;
1.25   xtraeme 	double temp = 0;
1.61   xtraeme 	const char *invalid = "N/A", *degrees, *tmpstr, *stype;
1.61   xtraeme 	const char *a, *b, *c, *d, *units;
1.61   xtraeme
1.61   xtraeme 	tmpstr = stype = d = NULL;
 1.1      groo
1.25   xtraeme 	/* find the longest description */
1.59   xtraeme 	SIMPLEQ_FOREACH(sensor, &sensors_list, entries)
1.59   xtraeme 		if (strlen(sensor->desc) > maxlen)
1.59   xtraeme 			maxlen = strlen(sensor->desc);
 1.1      groo
1.25   xtraeme 	if (width)
1.25   xtraeme 		maxlen = width;
 1.1      groo
1.61   xtraeme 	/*
1.61   xtraeme 	 * Print a header at the bottom only once showing different
1.61   xtraeme 	 * members if the statistics flag is set or not.
1.61   xtraeme 	 *
1.61   xtraeme 	 * As bonus if -s is set, only print this header every 10 iterations
1.61   xtraeme 	 * to avoid redundancy... like vmstat(1).
1.61   xtraeme 	 */
1.61   xtraeme
1.63   xtraeme 	a = "Current";
1.61   xtraeme 	units = "Unit";
1.61   xtraeme 	if (statistics) {
1.61   xtraeme 		b = "Max";
1.61   xtraeme 		c = "Min";
1.61   xtraeme 		d = "Avg";
1.70  pgoyette 	} else if (flags & ENVSYS_WFLAG) {
1.70  pgoyette 		b = "WarnMax";
1.70  pgoyette 		c = "WarnMin";
1.70  pgoyette 		d = "WarnCap";
1.61   xtraeme 	} else {
1.61   xtraeme 		b = "CritMax";
1.61   xtraeme 		c = "CritMin";
1.61   xtraeme 		d = "CritCap";
1.61   xtraeme 	}
1.61   xtraeme
1.61   xtraeme 	if (!sensors || (!header_passes && sensors) ||
1.61   xtraeme 	    (header_passes == 10 && sensors)) {
1.61   xtraeme 		(void)printf("%s%*s  %10s %8s %8s %8s %8s\n",
1.61   xtraeme 		    mydevname ? "" : "  ", (int)maxlen,
1.61   xtraeme 		    "", a, b, c, d, units);
1.61   xtraeme 		if (sensors && header_passes == 10)
1.61   xtraeme 			header_passes = 0;
1.61   xtraeme 	}
1.61   xtraeme 	if (sensors)
1.61   xtraeme 		header_passes++;
1.61   xtraeme
1.25   xtraeme 	/* print the sensors */
1.59   xtraeme 	SIMPLEQ_FOREACH(sensor, &sensors_list, entries) {
1.59   xtraeme 		/* skip sensors that were not marked as visible */
1.59   xtraeme 		if (sensors && !sensor->visible)
1.54   xtraeme 			continue;
 1.1      groo
1.59   xtraeme 		/* skip invalid sensors if -I is set */
1.59   xtraeme 		if ((flags & ENVSYS_IFLAG) && sensor->invalid)
1.25   xtraeme 			continue;
 1.1      groo
1.59   xtraeme 		/* print device name */
1.59   xtraeme 		if (!mydevname) {
1.59   xtraeme 			if (tmpstr == NULL || strcmp(tmpstr, sensor->dvname))
1.59   xtraeme 				printf("[%s]\n", sensor->dvname);
1.59   xtraeme
1.59   xtraeme 			tmpstr = sensor->dvname;
1.59   xtraeme 		}
1.45   xtraeme
1.69  christos 		/* find out the statistics sensor */
1.69  christos 		if (statistics) {
1.69  christos 			stats = find_stats_sensor(sensor->desc);
1.69  christos 			if (stats == NULL) {
1.69  christos 				/* No statistics for this sensor */
1.69  christos 				continue;
1.69  christos 			}
1.69  christos 		}
1.69  christos
1.59   xtraeme 		/* print sensor description */
1.54   xtraeme 		(void)printf("%s%*.*s", mydevname ? "" : "  ", (int)maxlen,
1.59   xtraeme 		    (int)maxlen, sensor->desc);
 1.1      groo
1.59   xtraeme 		/* print invalid string */
1.59   xtraeme 		if (sensor->invalid) {
1.29   xtraeme 			(void)printf(": %10s\n", invalid);
1.29   xtraeme 			continue;
1.29   xtraeme 		}
1.45   xtraeme
1.57   xtraeme 		/*
1.57   xtraeme 		 * Indicator and Battery charge sensors.
1.57   xtraeme 		 */
1.59   xtraeme 		if ((strcmp(sensor->type, "Indicator") == 0) ||
1.59   xtraeme 		    (strcmp(sensor->type, "Battery charge") == 0)) {
1.29   xtraeme
1.59   xtraeme 			(void)printf(": %10s", sensor->cur_value ? "ON" : "OFF");
 1.1      groo
1.71     ahoka /* converts the value to degC or degF or keep in Kelvin */
1.25   xtraeme #define CONVERTTEMP(a, b, c)					\
1.25   xtraeme do {								\
1.43   xtraeme 	if (b) 							\
1.71     ahoka 		(a) = ((b) / 1000000.0);			\
1.25   xtraeme 	if (flags & ENVSYS_FFLAG) {				\
1.43   xtraeme 		if (b)						\
1.71     ahoka 			(a) = (a) * (9.0 / 5.0) - 459.67;	\
1.25   xtraeme 		(c) = "degF";					\
1.71     ahoka 	} else if (flags & ENVSYS_KFLAG) {			\
1.71     ahoka 		(c) = "K";					\
1.71     ahoka 	} else {						\
1.71     ahoka 		if (b)						\
1.71     ahoka 			(a) = (a) - 273.15;			\
1.25   xtraeme 		(c) = "degC";					\
1.71     ahoka 	}							\
1.25   xtraeme } while (/* CONSTCOND */ 0)
1.25   xtraeme
1.25   xtraeme
1.25   xtraeme 		/* temperatures */
1.59   xtraeme 		} else if (strcmp(sensor->type, "Temperature") == 0) {
1.25   xtraeme
1.59   xtraeme 			CONVERTTEMP(temp, sensor->cur_value, degrees);
1.61   xtraeme 			stype = degrees;
1.61   xtraeme 			(void)printf(": %10.3f ", temp);
1.25   xtraeme
1.61   xtraeme 			if (statistics) {
1.61   xtraeme 				/* show statistics if flag set */
1.61   xtraeme 				CONVERTTEMP(temp, stats->max, degrees);
1.61   xtraeme 				(void)printf("%8.3f ", temp);
1.61   xtraeme 				CONVERTTEMP(temp, stats->min, degrees);
1.61   xtraeme 				(void)printf("%8.3f ", temp);
1.61   xtraeme 				CONVERTTEMP(temp, stats->avg, degrees);
1.61   xtraeme 				(void)printf("%8.3f ", temp);
1.61   xtraeme 				ilen = 8;
1.70  pgoyette 			} else if (flags & ENVSYS_WFLAG) {
1.70  pgoyette 				if (sensor->warnmax_value) {
1.70  pgoyette 					CONVERTTEMP(temp,
1.70  pgoyette 					    sensor->warnmax_value, degrees);
1.70  pgoyette 					(void)printf( "%8.3f ", temp);
1.70  pgoyette 					ilen = 24 + 2;
1.70  pgoyette 				}
1.70  pgoyette
1.70  pgoyette 				if (sensor->warnmin_value) {
1.70  pgoyette 					CONVERTTEMP(temp,
1.70  pgoyette 					    sensor->warnmin_value, degrees);
1.70  pgoyette 					if (sensor->warnmax_value)
1.70  pgoyette 						ilen = 8;
1.70  pgoyette 					else
1.70  pgoyette 						ilen = 16 + 1;
1.70  pgoyette
1.70  pgoyette 					(void)printf("%*.3f ", (int)ilen, temp);
1.70  pgoyette 					ilen = 16 + 1;
1.70  pgoyette 				}
1.61   xtraeme 			} else {
1.61   xtraeme 				if (sensor->critmax_value) {
1.61   xtraeme 					CONVERTTEMP(temp,
1.61   xtraeme 					    sensor->critmax_value, degrees);
1.61   xtraeme 					(void)printf( "%8.3f ", temp);
1.61   xtraeme 					ilen = 24 + 2;
1.61   xtraeme 				}
1.61   xtraeme
1.61   xtraeme 				if (sensor->critmin_value) {
1.61   xtraeme 					CONVERTTEMP(temp,
1.61   xtraeme 					    sensor->critmin_value, degrees);
1.62   xtraeme 					if (sensor->critmax_value)
1.62   xtraeme 						ilen = 8;
1.62   xtraeme 					else
1.61   xtraeme 						ilen = 16 + 1;
1.62   xtraeme
1.62   xtraeme 					(void)printf("%*.3f ", (int)ilen, temp);
1.62   xtraeme 					ilen = 16 + 1;
1.61   xtraeme 				}
1.25   xtraeme 			}
1.25   xtraeme
1.61   xtraeme 			(void)printf("%*s", (int)ilen, stype);
1.34   xtraeme #undef CONVERTTEMP
1.25   xtraeme
1.25   xtraeme 		/* fans */
1.59   xtraeme 		} else if (strcmp(sensor->type, "Fan") == 0) {
1.61   xtraeme 			stype = "RPM";
1.25   xtraeme
1.61   xtraeme 			(void)printf(": %10u ", sensor->cur_value);
1.61   xtraeme 			if (statistics) {
1.61   xtraeme 				/* show statistics if flag set */
1.61   xtraeme 				(void)printf("%8u %8u %8u ",
1.61   xtraeme 				    stats->max, stats->min, stats->avg);
1.61   xtraeme 				ilen = 8;
1.70  pgoyette 			} else if (flags & ENVSYS_WFLAG) {
1.70  pgoyette 				if (sensor->warnmax_value) {
1.70  pgoyette 					(void)printf("%8u ",
1.70  pgoyette 					    sensor->warnmax_value);
1.70  pgoyette 					ilen = 24 + 2;
1.70  pgoyette 				}
1.70  pgoyette
1.70  pgoyette 				if (sensor->warnmin_value) {
1.70  pgoyette 					if (sensor->warnmax_value)
1.70  pgoyette 						ilen = 8;
1.70  pgoyette 					else
1.70  pgoyette 						ilen = 16 + 1;
1.70  pgoyette 					(void)printf("%*u ", (int)ilen,
1.70  pgoyette 					    sensor->warnmin_value);
1.70  pgoyette 					ilen = 16 + 1;
1.70  pgoyette 				}
1.61   xtraeme 			} else {
1.61   xtraeme 				if (sensor->critmax_value) {
1.61   xtraeme 					(void)printf("%8u ",
1.61   xtraeme 					    sensor->critmax_value);
1.61   xtraeme 					ilen = 24 + 2;
1.61   xtraeme 				}
1.61   xtraeme
1.61   xtraeme 				if (sensor->critmin_value) {
1.61   xtraeme 					if (sensor->critmax_value)
1.62   xtraeme 						ilen = 8;
1.62   xtraeme 					else
1.61   xtraeme 						ilen = 16 + 1;
1.64   xtraeme 					(void)printf("%*u ", (int)ilen,
1.62   xtraeme 					    sensor->critmin_value);
1.62   xtraeme 					ilen = 16 + 1;
1.61   xtraeme 				}
1.61   xtraeme 			}
1.25   xtraeme
1.61   xtraeme 			(void)printf("%*s", (int)ilen, stype);
1.25   xtraeme
1.25   xtraeme 		/* integers */
1.59   xtraeme 		} else if (strcmp(sensor->type, "Integer") == 0) {
1.25   xtraeme
1.59   xtraeme 			(void)printf(": %10d", sensor->cur_value);
1.25   xtraeme
1.46   xtraeme 		/* drives  */
1.59   xtraeme 		} else if (strcmp(sensor->type, "Drive") == 0) {
1.27   xtraeme
1.59   xtraeme 			(void)printf(": %10s", sensor->drvstate);
1.25   xtraeme
1.57   xtraeme 		/* Battery capacity */
1.59   xtraeme 		} else if (strcmp(sensor->type, "Battery capacity") == 0) {
1.46   xtraeme
1.59   xtraeme 			(void)printf(": %10s", sensor->battcap);
1.46   xtraeme
1.25   xtraeme 		/* everything else */
1.25   xtraeme 		} else {
1.59   xtraeme 			if (strcmp(sensor->type, "Voltage DC") == 0)
1.61   xtraeme 				stype = "V";
1.59   xtraeme 			else if (strcmp(sensor->type, "Voltage AC") == 0)
1.61   xtraeme 				stype = "VAC";
1.59   xtraeme 			else if (strcmp(sensor->type, "Ampere") == 0)
1.61   xtraeme 				stype = "A";
1.59   xtraeme 			else if (strcmp(sensor->type, "Watts") == 0)
1.61   xtraeme 				stype = "W";
1.59   xtraeme 			else if (strcmp(sensor->type, "Ohms") == 0)
1.61   xtraeme 				stype = "Ohms";
1.59   xtraeme 			else if (strcmp(sensor->type, "Watt hour") == 0)
1.61   xtraeme 				stype = "Wh";
1.59   xtraeme 			else if (strcmp(sensor->type, "Ampere hour") == 0)
1.61   xtraeme 				stype = "Ah";
1.61   xtraeme
1.61   xtraeme 			(void)printf(": %10.3f ",
1.61   xtraeme 			    sensor->cur_value / 1000000.0);
1.61   xtraeme
1.61   xtraeme 			if (!statistics) {
1.70  pgoyette 				if (flags & ENVSYS_WFLAG) {
1.70  pgoyette 					if (sensor->warnmax_value) {
1.70  pgoyette 						(void)printf("%8.3f ",
1.70  pgoyette 						    sensor->warnmax_value / 1000000.0);
1.70  pgoyette 						ilen = 24 + 2;
1.70  pgoyette 					}
1.70  pgoyette
1.70  pgoyette 					if (sensor->warnmin_value) {
1.70  pgoyette 						if (sensor->warnmax_value)
1.70  pgoyette 							ilen = 8;
1.70  pgoyette 						else
1.70  pgoyette 							ilen = 16 + 1;
1.70  pgoyette 						(void)printf("%*.3f ", (int)ilen,
1.70  pgoyette 						    sensor->warnmin_value / 1000000.0);
1.70  pgoyette 						ilen = 16 + 1;
1.70  pgoyette 					}
1.70  pgoyette 					if (sensor->warncap_value) {
1.70  pgoyette 						ilen = 24 + 2;
1.70  pgoyette 						(void)printf("%*.2f%% ", (int)ilen,
1.70  pgoyette 						    (sensor->critcap_value * 100.0) /
1.70  pgoyette 						    sensor->max_value);
1.62   xtraeme 						ilen = 8;
1.70  pgoyette 					}
1.70  pgoyette 				} else {
1.70  pgoyette 					if (sensor->critmax_value) {
1.70  pgoyette 						(void)printf("%8.3f ",
1.70  pgoyette 						    sensor->critmax_value / 1000000.0);
1.70  pgoyette 						ilen = 24 + 2;
1.70  pgoyette 					}
1.70  pgoyette
1.70  pgoyette 					if (sensor->critmin_value) {
1.70  pgoyette 						if (sensor->critmax_value)
1.70  pgoyette 							ilen = 8;
1.70  pgoyette 						else
1.70  pgoyette 							ilen = 16 + 1;
1.70  pgoyette 						(void)printf("%*.3f ", (int)ilen,
1.70  pgoyette 						    sensor->critmin_value / 1000000.0);
1.61   xtraeme 						ilen = 16 + 1;
1.61   xtraeme
1.70  pgoyette 					}
1.70  pgoyette
1.70  pgoyette 					if (sensor->critcap_value) {
1.70  pgoyette 						ilen = 24 + 2;
1.70  pgoyette 						(void)printf("%*.2f%% ", (int)ilen,
1.70  pgoyette 						    (sensor->critcap_value * 100.0) /
1.70  pgoyette 						    sensor->max_value);
1.70  pgoyette 						ilen = 8;
1.70  pgoyette 					}
1.61   xtraeme 				}
1.61   xtraeme 			}
 1.1      groo
1.65   xtraeme 			if (statistics && !sensor->percentage) {
1.61   xtraeme 				/* show statistics if flag set */
1.61   xtraeme 				(void)printf("%8.3f %8.3f %8.3f ",
1.61   xtraeme 				    stats->max / 1000000.0,
1.61   xtraeme 				    stats->min / 1000000.0,
1.61   xtraeme 				    stats->avg / 1000000.0);
1.61   xtraeme 				ilen = 8;
1.61   xtraeme 			}
1.29   xtraeme
1.61   xtraeme 			(void)printf("%*s", (int)ilen, stype);
1.59   xtraeme 			if (sensor->percentage && sensor->max_value) {
1.61   xtraeme 				(void)printf("  (%5.2f%%)",
1.59   xtraeme 				    (sensor->cur_value * 100.0) /
1.59   xtraeme 				    sensor->max_value);
1.25   xtraeme 			}
1.25   xtraeme 		}
1.25   xtraeme 		(void)printf("\n");
1.61   xtraeme 		ilen = 32 + 3;
 1.1      groo 	}
1.25   xtraeme }
 1.1      groo
1.25   xtraeme static int
1.25   xtraeme usage(void)
1.25   xtraeme {
1.71     ahoka 	(void)fprintf(stderr, "Usage: %s [-DfIklrSTx] ", getprogname());
1.56   xtraeme 	(void)fprintf(stderr, "[-c file] [-d device] [-i interval] ");
1.59   xtraeme 	(void)fprintf(stderr, "[-s device:sensor,...] [-w width]\n");
1.25   xtraeme 	exit(EXIT_FAILURE);
1.25   xtraeme 	/* NOTREACHED */
 1.1      groo }